Claims
- 1. A nonvolatile memory on a substrate, said nonvolatile memory comprising:a gate dielectric formed on said substrate; oxide regions respectively formed on said substrate and adjacent to said gate dielectric; textured oxides formed on said substrate, between said gate dielectric and said oxide regions; floating gate consisting of a first portion, second portions and a third portion, wherein said first portion of said floating gate formed on said gate dielectric, isolations being formed on the side walls of said first portion, said second portions being respectively formed next to said isolations and over a portion of said oxide regions, wherein said third portion of said floating gate having a rugged surface to increase the surface area is formed on the upper surface of said first portion and said second portions; a dielectric layer formed on said third portion of said floating gate, side walls of said second portions; a control gate formed on said dielectric layer; and doped regions formed in said substrate and under said textured oxides and said oxide regions.
- 2. The nonvolatile memory of claim 1, wherein said gate oxide comprises silicon oxide.
- 3. The nonvolatile memory of claim 1, wherein said textured oxides comprise silicon oxide.
- 4. The nonvolatile memory of claim 1, wherein said first portion of said floating gate comprises polysilicon.
- 5. The nonvolatile memory of claim 1, wherein said second portions of said floating gate comprise polysilicon.
- 6. The nonvolatile memory of claim 1, wherein said third portion comprises semispherical grained silicon.
- 7. The nonvolatile memory of claim 1, wherein said control gate comprises polysilicon.
- 8. The nonvolatile memory of claim 1, wherein said dielectric layer comprises ONO.
- 9. The nonvolatile memory of claim 1, wherein said dielectric layer comprises NO.
- 10. The nonvolatile memory of claim 1, wherein said dielectric layer comprises Ta2O5.
- 11. A nonvolatile memory on a substrate, said nonvolatile memory comprising:a gate dielectric formed on said substrate; oxide regions respectively formed on said substrate and adjacent to said gate dielectric; textured oxides formed on said substrate, between said gate dielectric and said oxide regions; floating gate consisting of a first polysilicon portion, second polysilicon portions and a third portion composed of semispherical grained silicon, wherein said first polysilicon portion formed on said gate dielectric, isolations being formed on the side walls of said first polysilicon portion, said second polysilicon portions being respectively formed next to said isolations and over a portion of said oxide regions, wherein said semispherical grained silicon having a rugged surface to increase the surface area is formed on the upper surface of said first polysilicon portion and said second polysilicon portions; a dielectric layer formed on said third portion of said floating gate, side walls of said second portions; a control gate formed on said dielectric layer; and doped regions formed in said substrate and under said textured oxides and said oxide regions.
- 12. The nonvolatile memory of claim 11, wherein said gate oxide comprises silicon oxide.
- 13. The nonvolatile memory of claim 11, wherein said textured oxides comprise silicon oxide.
- 14. The nonvolatile memory of claim 11, wherein said control gate comprises polysilicon.
- 15. The nonvolatile memory of claim 11, wherein said dielectric layer comprises ONO.
- 16. The nonvolatile memory of claim 11, wherein said dielectric layer comprises NO.
- 17. The nonvolatile memory of claim 11, wherein said dielectric layer comprises Ta2O5.
Parent Case Info
This is a continuation application of U.S. Ser. No. 09/036,027 filed Mar. 6, 1998, entitled “METHOD OF FORMING HIGH CAPACITIVE-COUPLING RATIO AND HIGH SPEED FLASH MEMORIES WITH A TEXTURED TUNNEL OXIDE”.
US Referenced Citations (7)
Continuations (1)
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Number |
Date |
Country |
Parent |
09/036027 |
Mar 1998 |
US |
Child |
09/265062 |
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US |